DE102008008666A1 - circuitry - Google Patents

Abstract

Circuit arrangement with a switching unit (ASIC), a switching element (REL) and a control unit (CTRL). The control unit is designed to provide at least one supply signal (S_VDD) depending on a switching position of the switching element (REL). The switching unit (ASIC) has an input signal on the input side (S_PONX) and the at least one supply signal (S_VDD) is assigned to the control unit (CTRL). The switching unit (ASIC) is designed to supply and control predetermined components of the switching unit (ASIC), which are designed to control the switching element (REL), depending on the preliminary signal (S_PONX), in such a way that the switching element (REL ) turn on. The switching unit (ASIC) is further configured to detect the at least one applied supply signal (S_VDD) after switching on the switching element (REL) and to switch over to a supply of the predetermined components by means of the at least one supply signal (S_VDD).

Description

The Invention relates to a circuit arrangement with a switching unit, a switching element and a control unit.

In modern motor vehicles are for a given period of time after switching off the respective ignition further electrical components activated the motor vehicle, such. B. ventilation units for cooling the Motors or heating units. Many electrical components of the motor vehicle, such. B. control units, require error-free operation Furthermore before switching off a defined switch-off state, for example through an execution reached a given exit function of a given program becomes. Other electrical components require the storage of predetermined ones Data, for example by means of a communication network to be transmitted and received before switching off the motor vehicle. Such events need Thus, even after switching off the motor vehicle, a secure power supply, thus ensuring a renewed error-free start of the motor vehicle is.

The The object underlying the invention is to provide a circuit arrangement indicate that a reliable Control and supply of predetermined components of the motor vehicle guaranteed.

The Task is solved by the characteristics of the independent Claim. Advantageous embodiments of the invention are in the subclaims characterized.

The Invention is characterized by a circuit arrangement with a Switching unit, a switching element and a control unit. The Control unit is designed to depend on a switching position the switching element at least one supply signal available put. The switching unit is on the input side an advance signal and the at least one supply signal assigned to the control unit. The Switching unit is designed to dependent on the Vorabsignal predetermined components the switching unit, which is designed for driving the switching element are to supply and drive in such a way that this is the switching element turn on. The switching unit is further adapted to the switching of the switching element, the at least one adjacent Supply signal to detect and depending on a supply the predetermined components by means of the at least one supply signal to switch.

To the detection of the at least one applied supply signal can by switching the supply of the predetermined components by means of the applied supply signal, the predetermined components the switching unit and thus the control unit reliably supplied become.

The Pre-signal ensured the supply of the predetermined components of the switching unit, the are required to turn on the switching element. When switched on Switching element is the at least one supply signal by means of the control unit generated, which in turn is supplied to the switching unit, and for further supply the predetermined components is used. Thus, even with a short-term Concerns the Vorabsignals a supply to the control unit means ensures the at least one supply signal. There by means of the control unit the at least one supply signal is generated, the control unit control their supply and control automatically.

According to one advantageous embodiment, the switching unit comprises a communication interface. In this case, the switching unit is designed to, during the supply means the at least one supply signal a predetermined message to receive from the control unit and depending on the given To drive components of the circuit arrangement such that the Switching element is still switched on or off.

Depending on the transmitted Message, the control unit can control their supply and control independently check. This is a reliable supply to the control unit guaranteed even when the pre-signal is switched off. By means of the given Message can provide further supply of the block of management or the supply of the control unit is interrupted and turned off.

According to one Another advantageous embodiment, the switching unit is to formed, the predetermined components of the circuit arrangement dependent to drive by a given control signal.

A Control of the predetermined components for driving the switching element can be predetermined by means of the predetermined control signal. Consequently can in case of error and / or overload the switching unit and the control unit are reliably switched off and a damage the switching unit and the control unit are reliably prevented.

According to a further advantageous embodiment, the switching unit is adapted to select During the switching to the supply by means of the at least one supply signal to supply the predetermined components without interruption.

By an uninterruptible supply of the specified components For controlling the switching element, the control unit can be reliably operated be, especially during the switching to the supply by means of the at least one supply signal.

embodiments The invention are explained in more detail below with reference to the schematic drawings. It demonstrate:

1 a circuit arrangement having a switching unit, a switching element and a control unit,

2 a detailed representation of the switching unit,

3 a representation of a switching unit.

elements same construction or function are cross-figurative with the same Reference number marked.

In 1 a circuit arrangement with a switching unit ASIC, a switching element REL and a control unit CTRL is shown. The switching unit ASIC is designed, for example, as an application-specific integrated component. On the input side, the switching unit ASIC is assigned an advance signal S_PONX, which is configured, for example, as an ignition signal S_KL15 of an ignition of a motor vehicle and thus abuts for at least a predetermined period of time after the ignition of the motor vehicle is switched on. Alternatively, the pre-signal S_PONX but also by means of a communication interface CAN can be specified, which is designed for example as a controller area network interface. The ignition signal S_KL15 is assigned a first terminal of a first diode D2, and the communication interface CAN is assigned a first terminal of a second diode D3. The diodes D2 and D3 are associated with their second terminal a first node VP1, wherein the diodes D2 and D3 are arranged such that they are connected in the direction of the first node point VP1 in the forward direction. By means of the ignition signals S_KL15 and the communication interface CAN associated diodes D2 and D3 both signals can be ORed. In principle, however, only one signal can also specify the advance signal S_PONX.

Of Further is the first node VP1 assigned a first terminal of a resistor R2. The second Connection of the resistor R2 is a second node VP2 assigned. Between the second node VP2 and a reference potential GND is another resistor R3 arranged. The resistors R2 and R3 are designed to be in case of error, such. B. during a Short circuit to limit a current associated with the short circuit.

The Reference potential GND is for example as the mass of the motor vehicle educated.

Between the second node VP2 and the reference potential GND, a Zener diode D1 is further arranged. The Zener diode D1 is for voltage stabilization of the pre-signal S_PONX intended.

Next the pre-signal S_PONX the switching unit ASIC is a control signal S_ENA assigned on the input side. By means of a control switching element T1, the control signal S_ENA is generated. This is the control switching element T1, for example, as an n-channel Field effect transistor formed and with its source terminal to the reference potential GND and with its drain connection assigned to the switching unit ASIC. At the gate terminal of the control switching element T1 is a switching signal S_SW, by means of which a shutdown the switching unit ASIC can be done, such. For diagnostic purposes.

On the output side, the control unit ASIC is assigned an output signal S_OUT, which is fed to the switching element REL. By means of the output signal S_OUT, the switching element REL can be controlled. The switching element REL is preferably designed as a switching relay and in addition to a switch T2 comprises a coil L. In principle, however, other known to one skilled in the embodiments of the switching element REL can be used. The switch T2 is coupled to the coil L gekop pelt that when current flows through the coil L a switched position of the switch T2 is set, while in the currentless coil L a switched-off position of the switch T2 is specified. The coil L and the switch T2 are assigned to a respective first terminal a power supply V_BAT. The power supply V_BAT is, for example, a vehicle electrical system voltage of the motor vehicle, which is tapped from the battery of the motor vehicle. In principle, however, the voltage supply V_BAT can also be configured differently. At a second connection, the coil L is assigned the output signal S_OUT at a third connection point VP3. Depending on the output signal S_OUT, the switch T2 of the switching element REL can thus be switched on or off by means of the coil L. Between the third node VP3 and the reference potential GND, a capacitor C is arranged, which is adapted to decouple the second terminal of the coil L from the reference potential GND.

One second terminal of the switch T2 is the control unit CTRL input side assigned. The control unit CTRL can be used, for example, as a control unit of the motor vehicle, so z. B. as an engine control unit, be educated. When switch T2 is on the control unit CTRL the supply voltage V_BAT. Thus becomes dependent on the output signal S_OUT the switching unit ASIC, the control unit CTRL controlled and supplied with the supply voltage V_BAT. When the supply voltage V_BAT is applied, the control unit operates CTRL prefers a startup program by means of at least one of Control unit CTRL assigned computer units and generates on the output side, a first supply signal S_VDD and a second Supply signal S_VBAT. The first and second supply signal S_VDD and S_VBAT are in turn the input side of the switching unit ASIC supplied.

Based on 2 the switching unit ASIC will be described in more detail. The switching unit ASIC comprises a switching unit SU, on the input side, the pre-signal S_PONX and the first and second supply signal S_VDD and S_VBAT is supplied. The switching unit SU is designed to generate a component supply signal S_SUPPLY, which is embodied for example as a voltage signal, depending on the input signal S_PONX present on the input side and the first and second supply signals S_VDD and S_VBAT. By means of the component supply signal S_SUPPLY predetermined components of the switching unit ASIC are supplied. Furthermore, the advance signal S_PONX is assigned on the input side to a first functional unit FCT_1. In addition to the pre-signal S_PONX the first functional unit FCT_1 input side, a communication interface IF assigned, which is designed for example as a serial peripheral interface (SPI interface). But other configurations of the communication interface IF can be used, such. B. a CAN interface. The first functional unit FCT_1 is embodied, for example, as an OR component and, furthermore, configured to combine the input signal S_PONX present on the input side and the communication interface IF present on the input side by means of an OR operation and to provide the output of the OR operation of a second functional unit FCT_2 on the output side put.

The Control signal S_ENA is the input side of a fourth functional unit FCT_4 supplied. The fourth functional unit FCT_4 is preferably designed as a comparator. The control signal S_ENA is associated with a pull-up resistor R4, at its first end with the component supply signal S_SUPPLY is coupled and with its second end the control signal S_ENA. The fourth functional unit FCT_4 designed as comparator compares a voltage value of the input side applied control signal S_ENA with a predetermined input-side reference voltage V_OFF, which has a voltage value of 0.5 V, for example. If the voltage value of the control signal S_ENA is, for example, greater than the comparison voltage V_OFF, so generates the fourth functional unit FCT_4 has a high level on the output side. Is the voltage value of the control signal For example, S_ENA is smaller in size as the comparison voltage V_OFF, the fourth functional unit generates FCT_4 a low level on the output side.

In In this context, it should be noted that, for example, a High level represents a logical 1 and a low level represents a logical 0.

Of the Output of the designed as a comparator fourth functional unit FCT_4 is also assigned to the second functional unit FCT_2 on the input side. The second functional unit FCT_2 is preferably an AND component formed and further adapted to the input side adjacent output signal of the fourth functional unit FCT_4 and the input side applied output of the first functional unit FCT_1 by means of an AND link to combine and on the output side the result of the AND operation of a third functional unit FCT_3 available.

The third functional unit FCT_3 is designed analogously to the second functional unit FCT_1 as an AND component. On the input side, the third functional unit FCT_3 is assigned, in addition to the output of the second functional unit FCT_2, an output of a monitoring unit PU. The monitoring unit PU monitors, for example, environmental parameters of the switching unit ASIC, such. B. an operating temperature, voltage values and / or current values of the switching unit ASIC and / or the control unit CTRL. On the output side, the third functional unit FCT_3 is assigned to a drive switching element T3, which is designed, for example, as an n-channel field-effect transistor. The output of the third functional unit FCT_3 is coupled to the gate terminal of the drive switching element T3. The drive switching element T3 is associated with its source terminal a resistor R3, wherein the resistor R3 is associated with its the drive switching element T3 remote end of the reference potential GND. With his Drain terminal is assigned to the switching element REL, the drive switching element T3 and thus represents at the drain terminal, the output signal S_OUT.

To a start time of the motor vehicle is the advance signal S_PONX on the input side of the switching unit SU of the switching unit S_SUPPLY at. At this time are the first and second supply signal S_VDD and S_VBAT are typically not yet active. Depending on the Vorabsignal S_PONX generates the switching unit SU output side the component supply signal S_SUPPLY. The component supply signal S_SUPPLY represents all the components of the switching unit ASIC, which are used for control of the switching element REL needed be, a supply voltage available. The components include the functional units FCT_1, FCT_2, FCT_3 and FCT_4, as well as the communication interface IF and the monitoring unit PU and possibly further to control the switching element REL needed Components. The component supply signal S_SUPPLY represents, for example a voltage between 5 V and 12 V given components the switching unit ASIC available.

There by means of the present component supply signal S_SUPPLY Also, the pull-up resistor R4 is powered at its first end the control signal S_ENA with the control switching element T1 off at the entrance of the fourth functional unit designed as a comparator FCT_4 before a voltage value that is greater than the comparison voltage V_OFF. Thus, the fourth functional unit FCT_4 outputs on the output side a high-level front for the formed as an AND device second functional unit FCT_2. With the concern of the pre-signal S_PONX at the first functional unit FCT_1, This is also a high-level output side for the second functional unit FCT_2 before. Thus, the AND operation of the second functional unit FCT_2 fulfilled and the output side becomes a high level for the as an AND device formed third functional unit FCT_3 specified. Is by means of the monitoring unit PU no overtemperature and / or no overvoltage and / or no overcurrent detected in the switching unit ASIC and / or control unit CTRL, also gives the monitoring unit PU on the output side a high level for the third functional unit FCT_3 before, so that the AND connection is fulfilled here as well. The third functional unit FCT_3 generates a high level on the output side and thus controls the Ansteuerschaltelement T3 such that the output signal S_OUT the Reference potential specifies GND. This is the first port of the Coil L is the supply voltage V_BAT and at the second connection the Reference potential GND, so that through the coil L of the switching element REL a current flows, which leads to the switching on of the switch T2 and thus of the control unit CTRL supplies the supply voltage V_BAT.

The Control unit CTRL is designed to be connected to the supply voltage V_BAT to the first and second supply signal S_VDD and S_VBAT generate and the switching unit ASIC to feed. Furthermore, the Control unit CTRL designed to by means of a message transmission to control the communication interface IF of the control unit ASIC. The communication interface IF is designed to be dependent on the received message of the control unit CTRL either a high level or a low level of the first formed as an OR device Specify function unit FCT_1 on the output side.

Next the pre-signal S_PONX are now also the first and second Supply signal S_VDD and S_VBAT on the input side of the switching unit SU on. The switching unit SU is designed to be concern at least one supply signal to detect and depending on that Component supply signal S_SUPPLY depending on the at least one to generate detected supply signal. With the concern of at least a supply signal thus does not become the advance signal S_PONX continue to supply the components for driving the switching element REL used and thus not further burdened. This is special advantageous if the advance signal S_PONX only for a predetermined Period of time after the start of the motor vehicle is applied, the Vorabsignal S_PONX should be present until at least one supply signal on the input side of the switching unit ASIC.

For example the switching unit SU is designed to receive the first supply signal S_VDD to detect and upon detection the component supply signal S_SUPPLY depends on it to create. in principle the switching unit SU can also be designed to have several To detect supply signals and select accordingly. there can Priorities are given for several supply signals, so that when applying all supply signals, the one for generation the component supply signal S_SUPPLY having the highest priority is selected. If this falls due of an error, the supply signal is selected, with the next higher priority.

Thus, the supply of the components of the switching unit ASIC continues to be guaranteed, even if the advance signal S_PONX drops. In order to ensure a further activation of the switching element REL in the case of a non-present advance signal S_PONX th, the control unit CTRL transmits a predetermined message to the communication interface IF of the switching unit, so that this specifies a high level for the first functional unit FCT_1 and thus the switching element REL remains switched on.

There the supply voltage V_BAT also with the ignition off Motor vehicle is applied to the switching element REL, the control unit CTRL continue to operate after the switch-off of the ignition and thus, for example, fans and / or control other electrical consumers of the motor vehicle.

is For example, after a predetermined period of time after the switch-off the ignition, to which the pre-signal S_PONX is not applied, another control and / or supply of consumers of the motor vehicle is not necessary, can the control unit CTRL by means of a predetermined message the Control the communication interface IF of the switching unit ASIC in such a way that this specifies a low level and thus an AND operation for the second Function unit FCT_2 is no longer specified. Depends on it also as an AND device trained third functional unit FCT_3 on the output side Low level and thus turns off the drive switching element T3. Thereby a current flow through the coil L of the switching element REL is interrupted and the switch T2 is turned off. The control unit CTRL is thus of the supply voltage V_BAT separated and can thus also the first and second supply signal S_VDD and S_VBAT not specify. By the drop of the supply signals S_VDD and S_VBAT, the switching unit SU does not generate the component supply signal S_SUPPLY and do not continue to supply the components of the switching unit ASIC. Consequently the switching unit ASIC is no longer supplied. Thus, only one flows minimum quiescent current and the battery of the motor vehicle is in the Essentially not burdened.

Becomes by means of the monitoring unit PU during the switched-on switching element REL an overtemperature and / or overvoltage and / or an overcurrent detected in the switching unit ASIC and / or in the control unit CTRL, this gives the third functional unit FCT_3 a low level, so that the AND linkage not further fulfilled is and thus the switching element REL is turned off. This is particularly advantageous to damage the control unit CTRL and / or the switching unit ASIC to avoid.

in the If an error occurs, the control signal S_ENA can also be specified in such a way the voltage value of the control signal S_ENA is the comparison voltage V_OFF falls below the amount, so that formed as a comparator fourth functional unit FCT_4 specifies a low level on the output side and thus the AND operation of the second functional unit FCT_2 is no longer fulfilled. Thus, too the switch T2 of the switching element REL turned off.

The Control signal S_ENA can be specified by means of the switching signal S_SW become. In a preferred embodiment, the control signal S_ENA from the monitoring unit PU can be specified.

Based on 3 the switching unit SU is described in more detail. The advance signal S_PONX is assigned to a fourth node VP4 by means of a third diode D4. The second supply signal S_VBAT is assigned to the fourth node VP4 by means of a fourth diode D5. At the fourth node V24, the pre-signal S_PONX and the second supply signal S_VBAT are merged. The third and fourth diodes D4 and D5 are arranged to be forward-biased when current is supplied toward the fourth node VP4. By means of the third and fourth diode D4 and D5, an ORing of the pre-signal S_PONX and the second supply signal S_VBAT can be realized. In principle, however, other known to those skilled embodiments of a Veroderung be used.

Of the fourth link point VP4 is assigned to a switch T5. The switch T5 is by means of a Detecting unit DU controlled. The first supply signal S_VDD is supplied to another switch T4. The further switch T4 is also controlled by the detection unit DU. The registration unit DU is also the input side, the first supply signal S_VDD supplied.

On the output side the switch T5 and the further switch T4 is the component supply signal Assigned to S_SUPPLY.

The Detection unit DU is adapted to the first supply signal S_VDD to capture and dependent of which the switch T5 and the other switch T4 to control. The switches T4 and T5 are preferably controlled complementary, so that when switched switch position of the switch T5 the another switch T4 an off switching position specified becomes. For example, the detection unit DU is designed as an inverter, to control the switch T5 to control the other Invert switch T4.

If, for example, the first supply signal S_VDD is not present, then the switch T5 turns on connected and the applied pre-signal S_PONX or the second supply signal S_VBAT the component supply signal S_SUPPLY assigned. The further switch T4 is typically off at this time.

Lies for example, after a predetermined period of time, the first supply signal S_VDD, it is detected by means of the detection unit DU and the further switch T4 is turned on and the switch T5 is turned off. In this case, an activated switching position of the switch T5 with overlap in time with an activated switching position of the further switch T4, such that the component supply signal S_SUPPLY is uninterrupted can be specified. in principle can the uninterrupted specification of the component supply signal S_SUPPLY also by means of an energy storage, such. B. by means of a Capacitor, guaranteed become. But also other known to those skilled embodiments for the uninterrupted specification of the component supply signal S_SUPPLY are conceivable. The first supply signal S_VDD has in this embodiment the highest priority and supplies the predetermined components of the switching unit ASIC, as soon as this is detected. If the first supply signal falls S_VDD, for example, due to an error, then this drop detected by the detection unit DU and the switch T5 is turned on and the other switch T4 is turned off. The component supply signal S_SUPPLY thus becomes the second supply signal S_VBAT and / or assigned to the advance signal S_PONX, if they are present.

In a further preferred embodiment the switching unit ASIC comprises further components which are used for controlling formed other control units and / or other electrical consumers are. The other components are only then by means of the component supply signal S_SUPPLY the switching unit SU supplies, as soon as the component supply signal S_SUPPLY either the first supply signal S_VDD or the second supply signal S_VBAT assigned. If only the pre-signal S_PONX is on, only supplies the components that drive the switching element REL and thus required to control the control unit CTRL. As a result, the advance signal S_PONX is not loaded unnecessarily start.

The Control unit CTRL, the switching element REL and the switching unit can each carried out separately be. in principle but it is also possible the switching unit ASIC, as the switching element REL in the control unit CTRL integrate, so that a compact design of the circuit arrangement can be achieved.

Claims (4)

Circuit arrangement with a switching unit (ASIC), a switching element (REL) and a control unit (CTRL), the is formed, depending on a switching position of the switching element (REL) at least one supply signal (S_VDD) available to provide, the switching unit (ASIC) on the input side a Vorabsignal (S_PONX) and the at least one supply signal (S_VDD) of the control unit (CTRL) is assigned and which is designed depending on the pre-signal (S_PONX) predefined components of the switching unit (ASIC), which are designed to control the switching element (REL), to supply and to drive in such a way that these the switching element (REL) turn on, wherein the switching unit (ASIC) further formed is, after switching on the switching element (REL) the at least to detect an applied supply signal (S_VDD) and depending on it to a supply of the predetermined components by means of at least to switch a supply signal (S_VDD). Circuit arrangement according to Claim 1, in which the Switching unit (ASIC) comprises a communication interface (IF) and wherein the switching unit (ASIC) is adapted to during the Supply by means of the at least one supply signal (S_VDD) to receive a given message from the control unit (CTRL) and dependent of which, the given components of the circuit arrangement (ASIC) in such a way that the switching element (REL) continues to be switched on is or is turned off. Circuit arrangement according to Claim 1, in which the Switching unit (ASIC) is designed to the predetermined components the circuit arrangement (ASIC) depending on a predetermined control signal (S_ENA) to control. Circuit arrangement according to Claim 2 or 3, in which the switching unit is adapted to, during the switching to the Supply by means of the at least one supply signal (S_VDD) to supply the specified components without interruption.